Haiying Wang scite author profile

In this paper, mechanical properties of silica-filled epoxy resin are tested. The tests show that at elevated temperatures, the material's properties (e.g. yield stress, flow stress, etc.) vary immonotonically with filler volume fraction. Nanoindentation test results suggest that an interface region, stronger than the matrix, is formed in the materials. The formation of the interface has positive effects on the yield strengths of materials. The addition of particles in the matrix produces a large disturbance in stress distribution, leading to stress concentration in the matrix. The stress concentration has negative effects on the yield strengths of materials. The calculation demonstrates that the maximum stress in samples varies immonotonically with particulate concentration. So, the immonotonic variation of mechanical behavior of materials may be rooted in the contradictory effects of the interface region and the stress concentration caused by particulate addition. 

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Tunable Electric Properties of Bilayer α-GeTe with Different Interlayer Distances and External Electric Fields

Zhang

Zhou

Wang

et al. 2018

Nanoscale Res Lett

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Based on first-principle calculations, the stability, electronic structure, optical absorption, and modulated electronic properties by different interlayer distances or by external electric fields of bilayer α-GeTe are systemically investigated. Results show that van der Waals (vdW) bilayer α-GeTe has an indirect band structure with the gap value of 0.610 eV, and α-GeTe has attractively efficient light harvesting. Interestingly, along with the decrease of interlayer distances, the band gap of bilayer α-GeTe decreases linearly, due to the enhancement of interlayer vdW interaction. In addition, band gap transition is originated from the electric field-induced near free-electron gas (NFEG) under the application of positive electrical fields. However, when the negative electric fields are applied, there is no NFEG. On account of these characteristics of bilayer α-GeTe, a possible data storage device has been designed. These results indicate that bilayer α-GeTe has a potential to work in new electronic and optoelectronic devices.

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Synthesis of red-luminescent Eu3+-doped lanthanides compounds hollow spheres

Wang

Sun

et al. 2005

Materials Research Bulletin

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Tunable Schottky barrier in InTe/graphene van der Waals heterostructure

Zhou

Wang

2020

Nanotechnology

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The structures and electronic properties of InTe/graphene van der Waals heterostructures are systematically investigated using the first-principles calculations. The electronic properties of InTe monolayer and graphene are well preserved respectively and the bandgap energy of graphene is opened to 36.5 meV in the InTe/graphene heterostructure. An n-type Schottky contact is formed in InTe/graphene heterostructure at the equilibrium state. There is a transformation between n-type and p-type Schottky contact when the interlayer distance is smaller than 3.56 Å or the applied electric field is larger than −0.06 V Å −1 . In addition, the Schottky contact converts to Ohmic contact when the applied vertical electric field is larger than 0.11 V Å −1 or smaller than −0.13 V Å −1 .

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Effect of Au clustering on ferromagnetism in Au doped TiO2 films: theory and experiments investigation

Zou

Zhou

Wang

et al. 2017

Journal of Physics and Chemistry of Solids

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Haiying Wang

Combined effects of silica filler and its interface in epoxy resin

Tunable Electric Properties of Bilayer α-GeTe with Different Interlayer Distances and External Electric Fields

Synthesis of red-luminescent Eu3+-doped lanthanides compounds hollow spheres

Tunable Schottky barrier in InTe/graphene van der Waals heterostructure

Effect of Au clustering on ferromagnetism in Au doped TiO2 films: theory and experiments investigation

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